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arxiv:2602.01338

High-accuracy sampling for diffusion models and log-concave distributions

Published on Apr 27
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Abstract

Efficient diffusion model sampling algorithms achieve polylogarithmic complexity with improved error bounds using score estimates and gradient evaluations.

We present algorithms for diffusion model sampling which obtain δ-error in polylog(1/δ) steps, given access to widetilde O(δ)-accurate score estimates in L^2. This is an exponential improvement over all previous results. Specifically, under minimal data assumptions, the complexity is widetilde O(d_star polylog(1/δ)) where d_star is the intrinsic dimension of the data. Further, under a non-uniform L-Lipschitz condition, the complexity reduces to widetilde O(L polylog(1/δ)). Our approach also yields the first polylog(1/δ) complexity sampler for general log-concave distributions using only gradient evaluations.

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